DocumentCode :
930144
Title :
Block coding for discrete stationary 
-continuous noisy channels
-continuous noisy channelsAuthor :
Gray, Robert M. ; Ornstein, Donald S.
Volume :
25
Issue :
3
fYear :
1979
fDate :
5/1/1979 12:00:00 AM
Firstpage :
292
Lastpage :
306
Abstract :
A new class of discrete stationary noisy channels with memory and anticipation termed d-continuous channels is introduced and is shown to include all stationary discrete channels for which coding theorems exist. Roughly speaking, in a 
-continuous channel the effect of the "past" and "future" inputs on n successive outputs dies out asymptotically with 
as measured in a or average Hamming distance sense. This is weaker than the corresponding uotious of Pfaffeihuber, Kadota, and Wyner, who require that probabilities of all -tuples be close; that is, closeness in a variational or distribution sense. General block channel coding and block joint source and channel coding theorems are proved for stationary -continuous channels, and various definitions of channel capacity are compared.
-continuous channel the effect of the "past" and "future" inputs on n successive outputs dies out asymptotically with as measured in a or average Hamming distance sense. This is weaker than the corresponding uotious of Pfaffeihuber, Kadota, and Wyner, who require that probabilities of all -tuples be close; that is, closeness in a variational or distribution sense. General block channel coding and block joint source and channel coding theorems are proved for stationary -continuous channels, and various definitions of channel capacity are compared.Keywords :
Block codes; Source coding; Block codes; Channel coding; Engine cylinders; Image coding; Information theory; Length measurement; Mathematics; Mutual information; Random processes; Random variables;
fLanguage :
English
Journal_Title :
Information Theory, IEEE Transactions on
Publisher :
ieee
ISSN :
0018-9448
Type :
jour
DOI :
10.1109/TIT.1979.1056045
Filename :
1056045
Link To Document :
